JP2011070839A - Method of waterproofing crimping part - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method of waterproofing a crimping part, which secures a good waterproof property of the crimping part of an aluminum electric wire with coating and a crimping terminal formed of copper material, and loses no mounting properties of the crimping terminal on a connector housing. <P>SOLUTION: A waterproofing structure for sealing the crimping part with an adhesive tape 6 having a thickness smaller than a predetermined value is formed on the crimping part of the crimping terminal 2, fitted to and mounted on the connector housing, and formed of the copper material, and the aluminum electric wire 1 with coating. The waterproof properties of the crimping part are secured. In addition, degradation of waterproofing properties of the crimping terminal 2 on the connector housing, caused by the waterproofing structure is prevented. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a waterproof treatment method for a crimping portion of a crimping terminal made of a copper-based material fitted and attached to a connector housing and a crimping core wire portion exposed at an end of a coated aluminum electric wire.

  In many cases, the ends of the electric wires constituting the wire harness routed in the vehicle are connected to a crimp terminal fitted and attached to the connector housing in order to facilitate connection to the device.

  Until now, as a crimping terminal fitted and attached to a connector housing, a copper-based material having excellent springiness and conductivity has been widely used.

  On the other hand, wire harnesses in recent years tend to increase the number of wires accommodated with the increase in in-vehicle electronic devices. To reduce the weight of wire harnesses, a coating in which the periphery of an aluminum or aluminum alloy core wire is covered with an insulating coating Use of attached aluminum wires is required.

  From such a situation, it is necessary to ensure the reliability of a configuration in which a crimp terminal made of a copper-based material is crimped and connected to the end of the coated aluminum electric wire.

  However, since the crimped part with a crimped connection made of a copper-based material crimped to the end of the coated aluminum wire is in contact with a dissimilar metal, if water adheres to the crimped part, galvanic corrosion is likely to occur and corrosion at the crimped part is likely to occur. May cause problems such as poor contact.

  Accordingly, it is necessary that the crimping portion between the coated aluminum electric wire and the crimping terminal made of a copper-based material has a waterproof structure that prevents water adhesion.

  Heretofore, as a waterproofing method of the crimping part in which the crimping part has a waterproof structure, the crimping part is sealed with a resin mold (see Patent Document 1 below), or a heat-shrinkable tube covered around the crimping part And the like (see Patent Document 2 below) have been proposed.

Japanese Patent Laid-Open No. 2001-167821 JP 2005-268194 A

  However, in the case of the waterproofing processing method disclosed in each of the above-mentioned patent documents, in any case, the outer shape of the crimping portion bulges outward by 0.1 mm or more from the outer diameter of the crimping terminal. . Therefore, the crimp terminal cannot be fitted and attached to the connector housing in which the clearance with the crimp terminal is set to 0.1 mm or less.

  In other words, in the case of a crimp terminal made of a copper-based material that is fitted and attached to the connector housing, the conventional waterproof structure cannot be applied to the crimp portion. And since waterproofness cannot be ensured in a crimping | compression-bonding part, there existed a problem that the corrosion resistance of a crimping | compression-bonding part could not be improved.

  Therefore, the object of the present invention is to solve the above-mentioned problems, and to ensure good waterproofness in the crimped portion between the coated aluminum electric wire and the crimp terminal made of the copper-based material, thereby improving the corrosion resistance of the crimped portion. Another object of the present invention is to provide a waterproof treatment method for a crimping portion that can be improved and that does not impair the mounting property of the crimp terminal to a connector housing.

The above-described object of the present invention is achieved by the following configuration.
(1) A waterproofing method for a crimping portion between a crimping terminal made of a copper-based material fitted to a connector housing and a coated aluminum wire,
A waterproofing method for a crimping part, comprising forming a waterproof structure in which a crimping area including the crimping part is sealed with a waterproof adhesive tape having a thickness equal to or less than a specified thickness.

(2) As a step of forming the waterproof structure,
A wire crimping step of crimping and connecting the crimping core wire exposed at the end of the coated aluminum wire to the crimp terminal;
The pressure-sensitive adhesive tape includes a range including a crimping region that is implemented after the wire crimping step and extends from the tip end portion of the crimping core wire portion protruding from the terminal neck portion of the crimping terminal to the rear end of the crimped crimping portion of the crimping terminal. Covering crimping part tape covering process,
A tape pressing step for obtaining a sealed state in which a gap between the terminal neck portion and the adhesive tape is eliminated by pressing the opening portion of the adhesive tape covered by the terminal neck portion against the opposing surface of the terminal neck portion;
The method for waterproofing a crimping part according to (1) above, characterized in that

  (3) In the tape pressing step, the pressure-sensitive adhesive tape covering the terminals is pressed against the terminal surface, and the pressure-sensitive adhesive tape is adhered to the terminal surface in a close contact state (2) The waterproofing method of the crimping | compression-bonding part of description.

  (4) In the tape pressing step, the pressure-sensitive adhesive tape is pressed against the mating surface under a heating condition in which the pressure-sensitive adhesive tape exhibits appropriate ductility, and the pressure-sensitive adhesive tape is brought into close contact with the mating surface (2) ) Or the waterproofing method of the crimping part according to (3).

(5) As a step of forming the waterproof structure,
The crimping core wire part exposed to the end of the coated aluminum electric wire is crimped to the core wire crimping part of the crimp terminal, and the crimping core wire part protruding from the core wire crimping part to the terminal neck part A core end coating process for covering the end face and the periphery of the tip with the adhesive tape;
A wire crimping step of crimping the coated aluminum wire to the crimp terminal after finishing the core wire terminal coating process;
A crimping part tape covering step that is performed after the wire crimping step and covers the range including the crimping region with the adhesive tape;
The method for waterproofing a crimping part according to (1) above, characterized in that

  (6) In the core end coating process and the crimping part tape coating process, the pressure-sensitive adhesive tape is pressed against the mating surface under a heating condition in which the pressure-sensitive adhesive tape exhibits appropriate ductility, and the pressure-sensitive adhesive tape is adhered to the mating surface. The method for waterproofing a crimping part according to the above (5), characterized by comprising:

  According to the configuration of (1) above, the crimp portion between the coated aluminum electric wire and the crimp terminal made of a copper-based material is sealed with a waterproof structure using a waterproof adhesive tape. Therefore, it is possible to ensure good waterproofness in the crimping part and improve the corrosion resistance of the crimping part.

  Moreover, as the waterproof adhesive tape, for example, an adhesive tape having a thickness of 0.05 mm or less can be used. And by using the adhesive tape of such thickness, the swelling of the waterproof structure by the adhesive tape which seals a crimping | compression-bonding part can be suppressed to 0.1 mm or less.

  Therefore, even when the clearance between the terminal housing portion on the connector housing side where the crimp terminal is fitted and mounted and the crimp terminal is 0.1 mm or less, the waterproof structure may impair the mounting property of the crimp terminal to the connector housing. Absent.

  According to the configuration of the above (2), the pressure-sensitive adhesive tape made by sealing the periphery of the pressure-bonding portion and suppressing the bulging around the pressure-bonding portion to 0.1 mm or less by performing the pressure-bonding portion tape covering step and the tape pressing step. Thus, it becomes possible to obtain the function and effect described in (1) above.

  According to the configuration of (3) above, the adhesive strength of the pressure-sensitive adhesive tape to the terminal surface can be increased by performing a squeezing operation on the pressure-sensitive adhesive tape pressed against the terminal surface, and the sealing performance by the pressure-sensitive adhesive tape can be further enhanced.

  According to the configuration of (4) above, in a state where the adhesive tape is easily extended by heating, the pressure-sensitive adhesive terminal is pressed against the mating surface so that the pressure-sensitive adhesive tape is brought into close contact with the mating surface. The pressure-sensitive adhesive tape can be firmly adhered to the surface to eliminate the gap between the surface of the crimp terminal and the pressure-sensitive adhesive tape, and the sealing performance by the pressure-sensitive adhesive tape can be further enhanced.

  According to the configuration of (5) above, the periphery of the crimping part is sealed and the bulge around the crimping part is 0.1 mm or less by performing the core wire end coating process, the wire crimping process, and the crimping part tape coating process. A waterproof structure made of a pressure-sensitive adhesive tape that is suppressed to the above can be obtained, and the effects described in (1) above can be obtained.

  According to the configuration of (6) above, in the core wire end coating treatment step and the crimping portion tape coating step, the pressure-sensitive adhesive tape is pressed against the mating surface in a state in which the pressure-sensitive adhesive tape is easily extended by heating, and the pressure-sensitive adhesive tape is brought into the mating surface. Adhesive tape extends according to the irregularities on the outer periphery of the core wire and the irregular shape of the outer surface of the crimping terminal, so that the adhesive tape can be firmly attached to the mating surface, and the sealing performance with the adhesive tape can be improved it can.

  According to the waterproof treatment method of the crimping part according to the present invention, the crimping part between the coated aluminum electric wire and the crimping terminal is formed with a waterproof structure sealed with a waterproof adhesive tape. It can be ensured and the corrosion resistance of the crimping part can be improved.

  Moreover, for example, by using an adhesive tape having a thickness of 0.05 mm or less as a waterproof adhesive tape, it is possible to suppress the swelling of the waterproof structure due to the adhesive tape that seals the crimping portion to 0.1 mm or less. Even when the clearance between the terminal housing portion on the connector housing side where the crimp terminal is fitted and mounted and the crimp terminal is 0.1 mm or less, the waterproof structure of the crimp section does not impair the mounting property of the crimp terminal to the connector housing.

BRIEF DESCRIPTION OF THE DRAWINGS It is explanatory drawing of the process to the electric wire crimping process in 1st Embodiment of the waterproofing processing method of the crimping | compression-bonding part which concerns on this invention, (a) is a crimping | compression-bonding made from copper-type material for the coated aluminum electric wire which peeled the coating | cover of the edge part Explanatory diagram of the state before placing on the terminal, (b) is an explanatory diagram of the process of crimping the coated aluminum wire to the crimped terminal with a dedicated crimping machine, (c) is the crimped aluminum wire is crimped and connected to the crimped terminal It is a perspective view of a state. BRIEF DESCRIPTION OF THE DRAWINGS It is explanatory drawing of the crimping | compression-bonding part tape coating | coated process in 1st Embodiment of the waterproofing processing method of the crimping | compression-bonding part which concerns on this invention, (a) is the side of the state where the circumference | surroundings of the crimping | compression-bonding part were covered with the adhesive tape FIG. 4B is a cross-sectional view taken along line AA in FIG. It is composition explanatory drawing of the press jig | tool used at the tape press process in 1st Embodiment of the waterproofing processing method of the crimping | compression-bonding part which concerns on this invention. It is explanatory drawing of the tape pressing process in 1st Embodiment of the waterproofing processing method of the crimping | compression-bonding part which concerns on this invention, (a) is a side view of the state which the exclusive pressing jig started the contact to the opening part of an adhesive tape, (b) is the side view which showed simply the relationship between the pressing jig of (a) and an adhesive tape, (c) is BB sectional drawing of (a). BRIEF DESCRIPTION OF THE DRAWINGS It is explanatory drawing of the tape press process in 1st Embodiment of the waterproofing processing method of the crimping | compression-bonding part which concerns on this invention, (a) is an opening end of the adhesive tape which has covered the crimping | compression-bonding part pushing a special pressing jig and pushing. The side view of the crimp terminal in the crushed state, (b) is a side view schematically showing the relationship between the pressing jig of (a) and the adhesive tape, and (c) is the pressing jig pressing the adhesive tape. The side view which showed the state which is made to slide and the pressing part is crimped, (d) is CC sectional drawing of (a). It is explanatory drawing of the core wire terminal coating process process in 2nd Embodiment of the waterproofing processing method of the crimping | compression-bonding part which concerns on this invention, (a) is a perspective view of the state which wound the adhesive tape around the front-end | tip part of the crimping core wire part (B) is the same side view. It is explanatory drawing of the core wire terminal coating process process in 2nd Embodiment of the waterproofing processing method of the crimping | compression-bonding part which concerns on this invention, (a) crushes the front end side of the adhesive tape wound around the front-end | tip part of the crimping core wire part. Then, a perspective view of the state where the tip end surface of the crimping core wire part is shaped into a form covered with an adhesive tape, (b) is a side view thereof. It is explanatory drawing of the electric wire crimping process in 2nd Embodiment of the waterproofing processing method of the crimping | compression-bonding part which concerns on this invention, (a) is a perspective view of the condition which mounts the coated aluminum electric wire which finished the core wire terminal coating process on a crimp terminal, (B) is a perspective view of an electric wire crimping process, (c) is a perspective view of a state in which an end of a coated aluminum electric wire is crimped to a crimp terminal. It is a side view in the state where the pressure-sensitive adhesive part was covered with the pressure-bonding part by the pressure-bonding part tape coating step in the second embodiment of the waterproofing method of the pressure-bonding part according to the present invention. It is explanatory drawing of the other shape of the adhesive tape which can be used at the core wire terminal coating process process of 2nd Embodiment of the waterproofing processing method of the crimping | compression-bonding part which concerns on this invention, (a) is a perspective view of the example using a circular tape FIG. 4B is a perspective view of an example using a strip-shaped tape.

  Hereinafter, a preferred embodiment of a waterproofing method for a crimping portion according to the present invention will be described in detail with reference to the drawings.

[First Embodiment]
FIGS. 1-5 shows 1st Embodiment of the waterproofing processing method of the crimping | compression-bonding part which concerns on this invention.

  The waterproofing method for the crimping part of the first embodiment is a method for imparting waterproofness to the crimping part between the coated aluminum electric wire 1 and the crimping terminal 2 made of a copper-based material shown in FIG.

  Before connecting the coated aluminum wire 1 to the crimp terminal 2 made of a copper-based material, a terminal treatment for stripping the coating 11 at the end is performed, and a predetermined length of the core wire 12 for crimping is exposed at the end.

The crimp terminal 2 is fitted and attached to a connector housing (not shown).
The crimp terminal 2 is a press-molded product of a metal plate. As shown in FIG. 1, a core wire that crimps a terminal fitting portion 21 into which a mating connection terminal is fitted and a crimping core wire portion 12 of the coated aluminum wire 1. The crimping part 22 and the covering crimping part 23 which fixes the coating | coated part 11a adjacent to the core wire part 12 for crimping | bonding on the aluminum electric wire 1 with a covering are provided.

  The core wire crimping part 22 is comprised from a pair of crimping piece 22a, 22a extended to the both sides of the terminal bottom board part 2a extended from the terminal fitting part 21, as shown to Fig.1 (a).

  As shown in FIG. 1A, the covering crimping portion 23 is composed of a pair of crimping pieces 23a and 23a extending to both sides of the terminal bottom plate portion 2a.

  As shown in FIGS. 1 and 2, the crimp terminal 2 has a terminal neck portion 24 formed between a terminal fitting portion 21 and a core wire crimping portion 22. The terminal neck 24 has a length L1 in the terminal axis direction in FIG.

  In general, when terminating the coated aluminum wire 1, the length L2 of the crimping core wire portion 12 (see FIG. 1A) is the length L3 of the core wire crimping portion 22 in the terminal axis direction (FIG. 2). (See (a)).

  Accordingly, when the crimping core wire portion 12 of the coated aluminum electric wire 1 is crimped to the core wire crimping portion 22, the tip 12a of the crimping core wire portion 12 is connected to the core wire crimping portion 22 as shown in FIG. Projecting from the terminal fitting portion 21 to the intermediate portion of the terminal neck 24.

  The waterproof treatment method for the crimping portion of the first embodiment is a waterproof adhesive tape 6 having a thickness not more than a specified thickness within a range including the crimping region 4 of the coated aluminum wire 1 and the crimping terminal 2 (FIG. 2A). To form a sealed waterproof structure.

  Here, the crimping region 4 is a region from the front end 12a of the crimping core wire portion 12 to the rear end of the covering crimping portion 23 as shown in FIG. It is a range to include.

  The specified value of the thickness of the adhesive tape 6 is set so that bulging due to the tape thickness when wound around the outer periphery of the crimp terminal 2 does not cause damage to the connector housing.

  The small clearance between the terminal housing part on the connector housing side and the crimp terminal 2 is set to about 0.1 mm.

  Therefore, in this embodiment, the specified value of the thickness of the adhesive tape 6 to be used is 0.05 mm.

  More specifically, in this embodiment, the pressure-sensitive adhesive tape 6 is formed by forming a pressure-sensitive adhesive layer on one side of a transparent film-like base material having waterproofness, and the combined thickness of the base material and the pressure-sensitive adhesive layer is 0.05 mm. Use the following:

  Next, the process of this embodiment which forms the waterproof structure which sealed the crimping | compression-bonding area | region 4 with the transparent adhesive tape 6 is demonstrated in order based on FIGS.

  First, as shown in FIG. 1A, a coated aluminum electric wire 1 with a crimping core wire portion 12 exposed at an end portion and a crimp terminal 2 are prepared.

  Next, as shown in FIG. 1 (b), the end of the coated aluminum wire 1 is positioned on the crimping terminal 2, and the crimping core wire 12 is crimped and connected to the crimping terminal 2 by a dedicated crimping machine 51. Perform the crimping process.

  The crimping machine 51 includes a first crimping portion 52 for crimping the core wire crimping portion 22 onto the crimping core wire portion 12, and a second crimping portion 53 for crimping the covering crimping portion 23 onto the covering portion 11a. ing.

  When the wire crimping process is completed, the crimping core wire portion 12 at the end of the coated aluminum wire 1 is conductively connected to the crimp terminal 2 via the core wire crimping portion 22 as shown in FIG. It is in a state. Further, as shown in FIG. 1C, the covering portion 11 a adjacent to the crimping core wire portion 12 is fixed to the crimping terminal 2 via the covering crimping portion 23.

When the wire crimping process is completed, a crimping part tape coating process is performed.
This crimping | compression-bonding part tape coating | covering process is a process of covering the range containing the above-mentioned crimping | compression-bonding area | region 4 with the adhesive tape 6, as shown to Fig.2 (a) and FIG.2 (b).

  The pressure-sensitive adhesive tape 6 is formed into a cylindrical shape covering the periphery of the crimp terminal 2 by, for example, winding a pressure-sensitive adhesive tape having a width (or length dimension) exceeding the crimp region 4 around the crimp terminal 2.

  Since the adhesive tape 6 wound around the outer periphery of the cover crimping portion 23 and the cover portion 11a of the crimp terminal 2 has a cylindrical structure, it is in a sealed state in which it is in close contact with the mating surface simply by pressing strongly with a finger or the like. It can be.

  However, the adhesive tape 6 wound around the outer periphery of the terminal neck 24 of the crimp terminal 2 has a rectangular tube structure having an opening 61 on the terminal fitting portion 21 side, as shown in FIG. . Further, as shown in FIG. 2B, a rectangular gap 31 is defined by the inner wall surface of the terminal neck portion 24 and the adhesive tape 6 that covers the opening of the terminal neck portion 24.

  Therefore, when the crimping part tape covering step is completed, the tape pressing step shown in FIGS.

In the tape pressing step, a pressing jig 71 shown in FIG. 3 is used.
As shown in FIG. 3, the pressing jig 71 includes a pressing fitting 72 that is inserted into the opening of the terminal neck 24 and crushes the opening 61 of the adhesive tape 6, and a jig main body 73 that supports the pressing fitting 72. I have.

  Although not shown, the pressing jig 71 includes a terminal mounting base that supports the crimp terminal 2 to which the coated aluminum wire 1 is crimped with the opening of the terminal neck portion 24 facing the pressing fitting 72 side. Yes.

  The jig main body 73 supports the pressing metal 72 via a resilient member 74 for adjusting the pressing force of the pressing metal 72.

  The jig body 73 can be moved up and down toward the crimp terminal 2 mounted on the terminal mounting table by a lifting mechanism (not shown). An arrow X in FIG. 3 indicates the raising / lowering direction of the jig body 73.

  Further, the jig main body 73 can be slid (translated) in the direction of arrow Y in FIG. 3 by a slide driving unit (not shown).

An arrow Y direction in FIG. 3 is an axial direction of the crimp terminal 2 supported by the terminal mounting table.
The movement operation of the jig main body 73 in the arrow Y direction is used for the operation of squeezing the pressure-sensitive adhesive tape 6 being pressed.

  In the tape pressing step shown in FIGS. 3 to 5, first, the jig body 73 is lowered toward the terminal neck 24 of the crimp terminal 2 positioned on a terminal mounting table (not shown), and as shown in FIG. A press fitting 72 is brought into contact with the upper end of the opening 61 of the tape 6.

  Next, the jig body 73 is further lowered, and the upper portion of the opening 61 of the adhesive tape 6 is pressed against the opposing surface 24a (see FIG. 5B) of the terminal neck 24 as shown in FIG. As shown in FIG. 5D, a sealed state is obtained in which the gap 31 between the terminal neck 24 and the adhesive tape 6 is eliminated.

  In the tape pressing process of the present embodiment, the pressing metal 72 is slid in the direction of the arrow Y1 in FIG. 5 with the pressure-sensitive adhesive tape 6 covering the terminal being pressed against the terminal surface by the pressing metal 72. By the sliding operation of the pressing metal 72, the pressure-sensitive adhesive tape 6 pressed on the terminal surface is squeezed to adhere the pressure-sensitive adhesive tape 6 to the terminal surface in a close contact state.

  By performing the squeezing operation of the adhesive tape 6 by the sliding operation of the pressing metal 72, the gap 32 (see FIG. 5B) remaining at the tip of the tip 12a of the crimping core wire portion 12 is changed to FIG. 5C. As shown in FIG.

  After the tape pressing step is completed, it is preferable that the tape pressing portion is heated by a separately prepared heating means (a warm air heater, a high temperature chamber, etc.) to increase the adhesive force between the adhesive tape 6 and the terminal surface so as to be in close contact.

  Instead of preparing the heating means separately, the jig body 73 may be equipped with a heater that raises the pressure fitting 72 to a predetermined temperature. This heater controls the temperature rise of the pressure fitting 72 so that the pressure-sensitive adhesive tape is in a heated state in which the pressure-sensitive adhesive tape exhibits appropriate ductility as a result of the temperature rise of the pressure fitting 72.

  In this case, in the tape pressing step of this embodiment, the pressure-sensitive adhesive tape 6 is pressed in a state in which the pressing metal 72 is heated to a predetermined temperature by a built-in heater. Thereby, the press metal fitting 72 presses the adhesive tape 6 against the mating surface under a heating condition in which the adhesive tape 6 exhibits appropriate ductility, thereby bringing the adhesive tape 6 into close contact with the mating surface.

  When the above tape pressing process is completed, the pressure-sensitive adhesive tape 6 covering the crimping region 4 on the crimping terminal 2 has a waterproof structure in which the crimping region 4 is sealed.

  In the waterproofing method of the crimping part according to the first embodiment described above, the crimping part between the coated aluminum wire 1 and the crimping terminal 2 made of a copper-based material is sealed with a waterproof structure using a waterproof adhesive tape 6. . Therefore, it is possible to ensure good waterproofness in the crimping part and improve the corrosion resistance of the crimping part.

  Moreover, as the waterproof adhesive tape 6, by using the adhesive tape 6 having a thickness of 0.05 mm or less, the swelling of the waterproof structure by the adhesive tape 6 that seals the crimping portion is suppressed to 0.1 mm or less. Can do.

  Therefore, even when the clearance between the terminal housing portion on the connector housing side where the crimp terminal 2 is fitted and mounted and the crimp terminal 2 is 0.1 mm or less, the waterproof structure allows the crimp terminal 2 to be attached to the connector housing. There is no loss.

  Moreover, in the waterproofing method of the crimping part of the above embodiment, the crimping part tape covering process shown in FIG. 2 and the tape pressing process shown in FIGS. A waterproof structure made of the adhesive tape 6 in which the bulge around the crimping portion is suppressed to 0.1 mm or less is obtained. Therefore, as described above, the corrosion resistance of the crimping portion can be improved without impairing the mounting property to the connector housing.

  Moreover, in the waterproofing processing method of the crimping | compression-bonding part of the said embodiment, as shown in FIG. 5, the adhesive tape 6 pressed on the terminal surface is squeezed in the tape press process.

  Therefore, the adhesive strength of the pressure-sensitive adhesive tape 6 to the terminal surface can be increased, and the sealing performance by the pressure-sensitive adhesive tape 6 can be further enhanced.

  Moreover, in the waterproofing method of the crimping | compression-bonding part of the said embodiment, in the state which made the adhesive tape 6 easy to extend by the heating with the press-fitting metal 72 raised in temperature, the adhesive tape 6 is pressed on the other surface, and the adhesive tape 6 is made into the other party. Since it adheres to the surface, the adhesive tape 6 can be firmly adhered to the surface of the crimp terminal 2 in accordance with the unevenness of the crimp terminal 2, and the sealing performance by the adhesive tape 6 can be further enhanced.

  Moreover, in the waterproofing method of the crimping | compression-bonding part of the said embodiment, since the transparent adhesive tape 6 is used, the adhesive tape 6 can be permeate | transmitted and the state of a crimping | compression-bonding part can be visually observed.

  Therefore, even if the adhesive tape 6 is not peeled off, it is possible to detect the occurrence of rust at the crimping part at an early stage by visual observation, and it is possible to cope with it early when rusting occurs at the crimping part.

[Second Embodiment]
6 to 9 show a second embodiment of the waterproofing method for a crimping part according to the present invention.

  In the waterproof treatment method for the crimping portion of the second embodiment, the thickness of the crimping region 4 including the crimping portion between the coated aluminum wire 1 and the crimping terminal 2 made of a copper-based material shown in FIG. The waterproof structure sealed with waterproof adhesive tapes 6A and 6B of the following (0.05 mm or less) is formed.

  Next, the process of this embodiment which forms the waterproof structure which sealed the crimping | compression-bonding area | region 4 with transparent adhesive tape 6A, 6B is demonstrated in order based on FIGS.

  The definitions of the coated aluminum wire 1, the crimp terminal 2, and the crimp region 4 are the same as those in the first embodiment, and a description thereof is omitted.

  Moreover, the adhesive tapes 6A and 6B used in the present embodiment may be the same as the adhesive tape 6 shown in the first embodiment.

  In the waterproofing method of the crimping part in the second embodiment, before crimping the crimping core wire part 12 exposed at the end of the coated aluminum electric wire 1 to the core wire crimping part 22 of the crimping terminal 2, FIG. The core end coating process shown in FIG. 7 is performed.

  In the core wire end covering treatment step, first, as shown in FIG. 6, an adhesive tape 6 </ b> A is provided around the tip 12 a of the crimping core wire portion 12 that protrudes from the core wire crimping portion 22 to the terminal neck portion 24 when being crimped to the crimp terminal 2. Wrap. At this time, the cylinder 65 formed by the wound adhesive tape 6A is set to a length that extends further forward than the tip 12a.

  Next, as shown in FIG. 7, the tip of the cylinder 65 extending from the tip 12a of the crimping core 12 is crushed so that the tip 12a is covered with the adhesive tape 6A.

  That is, in the core wire terminal coating process of the present embodiment, the end face and the periphery of the tip 12a of the crimping core wire portion 12 protruding from the core wire crimping portion 22 to the terminal neck portion 24 when crimped to the crimp terminal 2 are covered with the adhesive tape 6A. It is the process of covering.

  In addition, in order to distinguish the coated aluminum electric wire which finished the core wire terminal coating process from the coated aluminum electric wire 1 before the core terminal coating, it is referred to as a coated aluminum electric wire 1A.

  Next, as shown in FIG. 8, a wire crimping process is performed in which the coated aluminum electric wire 1 </ b> A that has finished the core end coating process is crimped to the crimp terminal 2. The crimping machine 51 used in this wire crimping process is the same as that used in the wire crimping process of the first embodiment.

When the wire crimping process is finished, a crimping part tape coating process is performed.
As shown in FIG. 9, in the crimping part tape covering step, the range including the crimping region 4 extending from the tip 12a of the crimping core wire part 12 on the crimping terminal 2 to the rear end of the covering crimping part 23 is transparent adhesive tape 6B. It is the process of covering with.

  For example, the adhesive tape 6B is wound around the crimp terminal 2 within a range including the adhesive tape 6B having a width (or length) exceeding the crimp region 4 and the crimp region 4, so that the adhesive tape 6B is A cylindrical shape covering the periphery is used.

  The tip 12a of the crimping core wire portion 12 on the crimping terminal 2 is covered in advance with the adhesive tape 6A in the core wire end coating process, so that when the crimping portion tape coating step is completed, the adhesive tape 6A and the adhesive tape 6A The tape 6 </ b> B has a waterproof structure that seals the entire area of the crimping region 4.

  In the case of the present embodiment, in the core end coating process shown in FIGS. 6 and 7 and the crimping part tape coating process shown in FIG. 9, the adhesive tapes 6A and 6B are under heating conditions that exhibit appropriate ductility. The pressure-sensitive adhesive tapes 6A and 6B are pressed against the mating surface, and the pressure-sensitive adhesive tapes 6A and 6B are brought into close contact with the mating surface.

  In the waterproofing method of the crimping part of the second embodiment described above, the core wire end covering treatment process shown in FIGS. 6 and 7, the wire crimping process shown in FIG. 8, and the crimping part tape shown in FIG. By performing the covering step, the waterproof structure made of the adhesive tapes 6A and 6B is obtained in which the periphery of the crimping portion is sealed and the bulge around the crimping portion is suppressed to 0.1 mm or less.

  Therefore, as in the case of the first embodiment, it is possible to improve the corrosion resistance of the crimping portion without impairing the mounting property to the connector housing.

  In the case of the second embodiment, in the core wire end coating process and the crimping part tape coating process, the pressure-sensitive adhesive tapes 6A and 6B are pressed against the mating surface in a state where the pressure-sensitive adhesive tapes 6A and 6B are easily extended by heating. In order to make the adhesive tapes 6A and 6B come into close contact with the mating surface, the adhesive tapes 6A and 6B extend according to the irregularities on the outer periphery of the crimping core wire 12 and the irregularities on the outer surface of the crimping terminal 2, and the adhesive tapes 6A and 6B Can be firmly attached to the mating surface, and the sealing performance by the adhesive tapes 6A and 6B can be enhanced.

  Also in the case of the second embodiment, since the transparent adhesive tapes 6A and 6B are used, the state of the crimping portion can be visually observed through the adhesive tapes 6A and 6B. Therefore, even if the adhesive tapes 6A and 6B are not peeled off, the occurrence of rust in the crimping part can be detected at an early stage by visual observation, and when rust occurs in the crimping part, it can be dealt with early.

  In addition, the method of covering the end surface and the periphery of the tip 12a of the crimping core wire portion 12 with the adhesive tape 6A in the core wire end covering process step of the second embodiment is not limited to the method shown in the above embodiment.

  For example, as shown in FIG. 10A, a circular adhesive tape 6 </ b> C having a diameter larger than the outer diameter of the crimping core wire portion 12 is attached to the distal end surface of the crimping core wire portion 12. Thereafter, the peripheral edge of the adhesive tape 6C is placed around the tip 12a. Further, a portion covering the periphery of the tip 12a may be squeezed so that the end face and the periphery of the tip 12a of the crimping core 12 are sealed with the adhesive tape 6C.

  Further, as shown in FIG. 10B, a band-like adhesive tape 6D having a width dimension larger than the outer diameter of the crimping core wire portion 12 is covered with a U-shape on the tip 12a of the crimping core wire portion 12, and crimped. You may make it seal the end surface and periphery of the front-end | tip 12a of the core wire part 12 with the adhesive tape 6D.

  The present invention is not limited to the above-described embodiments, and can be appropriately modified and improved. In addition, the material, shape, dimension, numerical value, form, number, arrangement location, and the like of each component in the above-described embodiment are arbitrary and are not limited as long as the present invention can be achieved.

DESCRIPTION OF SYMBOLS 1,1A Covered aluminum electric wire 2 Crimp terminal 2a Terminal bottom plate part 6 Adhesive tape 6A, 6B, 6C, 6D Adhesive tape 11 Cover 11a Cover part 12 Crimp core wire part 12a Tip 22 Core wire crimping part 24 Terminal neck part 24a Opposing surface 31 Clearance 51 Crimping machine 61 Opening 65 Cylinder 71 Pressing jig 72 Pressing fitting 73 Jig body

Claims (6)

A waterproof treatment method for a crimping portion between a crimping terminal made of a copper-based material fitted to a connector housing and a coated aluminum wire,
A waterproofing method for a crimping part, comprising forming a waterproof structure in which a crimping area including the crimping part is sealed with a waterproof adhesive tape having a thickness equal to or less than a specified thickness. As a step of forming the waterproof structure,
A wire crimping step of crimping and connecting the crimping core wire exposed at the end of the coated aluminum wire to the crimp terminal;
The pressure-sensitive adhesive tape includes a range including a crimping region that is implemented after the wire crimping step and extends from the tip end portion of the crimping core wire portion protruding from the terminal neck portion of the crimping terminal to the rear end of the crimped crimping portion of the crimping terminal. Covering crimping part tape covering process,
A tape pressing step for obtaining a sealed state in which a gap between the terminal neck portion and the adhesive tape is eliminated by pressing the opening portion of the adhesive tape covered by the terminal neck portion against the opposing surface of the terminal neck portion;
The waterproofing method for a crimping part according to claim 1, comprising:   3. The pressure bonding according to claim 2, wherein in the tape pressing step, the pressure-sensitive adhesive tape covering the terminal is pressed against the terminal surface, and the pressure-sensitive adhesive tape is adhered to the terminal surface in a close contact state. Waterproofing method of the part.   In the said tape press process, the said adhesive tape is pressed on the other surface under the heating condition in which an adhesive tape exhibits moderate ductility, and the adhesive tape is made to contact | adhere to the other surface. The waterproofing method of the crimping | compression-bonding part of description. As a step of forming the waterproof structure,
The crimping core wire portion exposed at the end of the coated aluminum wire is crimped to the core wire crimping portion of the crimp terminal, and the crimping core wire portion protruding from the core wire crimping portion to the terminal neck portion A core end coating process for covering the end face and the periphery of the tip with the adhesive tape;
A wire crimping step of crimping the coated aluminum wire to the crimp terminal after finishing the core wire terminal coating process;
A crimping part tape covering step that is performed after the wire crimping step and covers the range including the crimping region with the adhesive tape;
The waterproofing method for a crimping part according to claim 1, comprising:   In the core end coating treatment step and the crimping portion tape coating step, the pressure-sensitive adhesive tape is pressed against the mating surface under a heating condition where the pressure-sensitive adhesive tape exhibits appropriate ductility, and the pressure-sensitive adhesive tape is brought into close contact with the mating surface. The waterproofing method of the crimping | compression-bonding part of Claim 5 characterized by the above-mentioned.

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